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Direct synthesis of middle iso-paraffins from synthesis gas

2003; Elsevier BV; Volume: 84; Issue: 1-2 Linguagem: Inglês

10.1016/s0920-5861(03)00301-8

1873-4308

Xiaohong Li, Kenji Asami, Mengfei Luo, Keisuke Michiki, Noritatsu Tsubaki, Kaoru Fujimoto,

Zeolite Catalysis and Synthesis

This paper focuses on the synthesis of iso-paraffin-rich hydrocarbons by Fischer–Tropsch synthesis (FTS) over Co/SiO2 catalyst. The basic concept was to secondarily isomerize and/or hydrocrack the primary FTS hydrocarbon products. A physical mixture of a small amount of added H-ZSM-5 in the Co/SiO2 catalyst enhanced the formation of C4–C10 iso-paraffins while suppressing the formation of longer hydrocarbons, probably because of the selective cracking of higher hydrocarbons on ZSM-5. The three-component catalyst (Co/SiO2–Pd/SiO2–ZSM-5) promoted the formation of paraffins, whereas the yield of isomerized products was not high enough. For a two-step reaction, the first step catalyst was the Co/SiO2+ZSM-5 catalyst and the second step catalyst was Pd/SiO2+ZMS-5 catalyst where additional hydrogen was added. The selectivity of iso-paraffins was markedly promoted and the molecular weight of the product decreased while the syngas conversion was kept constant. The hydrocracking of n-octane (which is the model compound of FTS reaction) over hybrid catalyst composed of Pd/SiO2–zeolite and showed high and stable activity giving iso-paraffin-rich hydrocarbons. The isomerization was favored for Pd rich catalyst. The role of Pd was thought to be the port hole of hydrogen spillover to zeolite.